Method and apparatus for supplying power to a radio frequency power amplifier

1. A supply modulator (SM) for supplying power from a wireless transmitter to a radio frequency (RF) power amplifier, the SM comprising: a power controller configured to receive a power control signal input from a modem and output a reference voltage, wherein the power controller changes an operating mode of the SM by controlling a level of the reference voltage; a buck booster configured to receive the reference voltage from the power controller and output a voltage-based on the level of the reference voltage; a combiner configured to combine a first output signal from a linear regulator and a second output signal from a switching regulator to obtain a combined result, and to output the combined result, wherein the first output signal is based on the voltage outputted from the buck booster; and a switch having a first end connected to a power supply end of the RF power amplifier and a second end that is switchable between the buck booster and the combiner, and configured to change the operating mode of the SM to an envelope tracking (ET) mode or an average power tracking (APT) mode based on whether the second end is connected to the buck booster or the combiner.

2. The SM of claim 1 , wherein the linear regulator is configured to receive the voltage from the buck booster, amplify an envelope signal received from the modem, and output the amplified envelope signal.

3. The SM of claim 2 , further comprising an alternate current (AC) coupling unit configured to receive the amplified envelope signal from the linear regulator, perform AC coupling on the amplified envelope signal to generate an AC-coupled signal, and to output the AC-coupled signal to the combiner.

4. The SM of claim 3 , wherein the AC coupling unit further comprises: an AC coupling capacitor; a voltage detector configured to detect a direct current (DC) voltage across the AC coupling capacitor; and a third comparator configured to output a DC feedback value to the switching regulator based on a comparison result of comparing the DC voltage and a reference value input from a gain and offset controller, wherein the second output signal of the switching regulator is an output voltage based on the DC feedback value.

5. The SM of claim 1 , further comprising: a gain and offset controller configured to compare the power control signal input from the modem and a predetermined reference value, and output a value of a gain and a value of an offset based on the comparison to the power controller, while the SM is operating in the ET mode.

6. The SM of claim 5 , wherein the gain and offset controller comprises: a lookup table that includes a shape table having at least two curve values; a first comparator configured to compare the power control signal input from the modem and the predetermined reference value; and a controller configured to separate and convert data values in the shape table into values of gains and values of offsets, based on the comparison result from the first comparator.

7. The SM of claim 6 , wherein the shape table includes respective values of gains and values of offsets for at least two output power sections divided by output power level of the SM.

8. The SM of claim 5 , further comprising: a second converter configured to convert a reference value output from the gain and offset controller to an analog signal and forward the analog signal to an AC coupling unit.

9. The SM of claim 1 , wherein the power controller comprises: a subtractor configured to output a value obtained by subtracting a predetermined value from the power control signal input from the modem; and a second comparator configured to compare the value output from the subtractor with a minimum voltage value for conversion of the operating mode of the SM, wherein the level of the reference voltage input to the buck booster is controlled based on the comparison result of the second comparator.

10. The SM of claim 9 , wherein the second comparator is configured to: output an output value of the subtractor as the reference voltage if the output value of the subtractor is greater than the minimum voltage value, and output the minimum voltage value as the reference voltage if the output value of the subtractor is less than or equal to the minimum voltage value.

11. The SM of claim 1 , further comprising: a first converter configured to convert the reference voltage output from the power controller to an analog signal and forward the analog signal to the buck booster.

12. A method for supplying power from a wireless transmitter to a radio frequency (RF) power amplifier by a supply modulator (SM), the method comprising: receiving a power control signal input from a modem; determining a reference voltage based on the power control signal, wherein an operating mode of the SM is changed by controlling a level of the reference voltage; determining a voltage based on the level of a reference voltage; when the operating mode of the SM is an envelope tracking (ET) mode, combining a first output signal from a linear regulator and a second output signal from a switching regulator to obtain a combined result, and outputting the combined result, wherein the first output signal is based on the voltage; and when the operating mode of the SM is an average power tracking (APT) mode, outputting the voltage.

13. The method of claim 12 , wherein, when the operating mode of the SM is the ET mode, further comprising: amplifying an envelope signal received from the modem; and performing AC coupling on the amplified envelope signal to generate an AC-coupled signal; and outputting the AC-coupled signal as the first output signal.

14. The method of claim 13 , wherein, when the operating mode of the SM is the ET mode, further comprising: detecting a direct current (DC) voltage across a AC coupling capacitor; and comparing the DC voltage and a reference value input from a gain and offset controller to obtain a DC feedback value, wherein the second output signal of the switching regulator is an output voltage based on the DC feedback value.

15. The method of claim 12 , wherein, prior to determining the reference voltage, further comprising: comparing the power control signal input from the modem and a predetermined reference value; and outputting a value of a gain and a value of an offset based on the comparison, while the SM is operating in the ET mode.

16. The method of claim 15 , wherein comparing the power control signal input from the modem and the predetermined reference value comprises: separating and converting data values in a shape table having at least two curve values into values of gains and values of offsets, based on the comparison result.

17. The method of claim 16 , wherein the shape table includes respective values of gains and values of offsets for at least two output power sections divided by output power level of the SM.

18. The method of claim 16 , wherein, determining the reference voltage comprises: subtracting a predetermined value from the power control signal input from the modem to obtain a subtracted value; and comparing the subtracted value with a minimum voltage value for conversion of the operating mode of the SM, wherein the level of the reference voltage is controlled based on the comparison result.

19. The method of claim 18 , further comprising: outputting the subtracted value as the reference voltage if the subtracted value is greater than the minimum voltage value; and outputting the minimum voltage value as the reference voltage if the subtracted value is less than or equal to the minimum voltage value.

20. An article of manufacture for supplying power from a wireless transmitter to a radio frequency (RF) power amplifier by a supply modulator (SM), comprising a non-transitory machine readable medium containing one or more programs which when executed implement the steps of: receiving a power control signal input from a modem determining a reference voltage based on the power control signal, wherein an operating mode of the SM is changed by controlling a level of the reference voltage; determining a voltage based on the level of the reference voltage; when the operating mode of the SM is an envelope tracking (ET) mode, combining a first output signal from a linear regulator and a second output signal from a switching regulator to obtain a combined result, and outputting the combined result, wherein the first output signal is based on the voltage; and when the operating mode of the SM is an average power tracking (APT) mode, outputting the voltage based on the reference voltage.